Layer-by-layer assembled nanorough iridium-oxide/platinum-black for low-voltage microscale electrode neurostimulation
•A low impedance and high charge-injection material with an enhanced surface area is proposed.•A layer-by-layer assembly of IrOx/Pt-black with nanoroughness is fabricated.•IrOx/Pt-black has half the impedance and 2.4 times QCDC of a same-sized flat-IrOx.•In vivo electrical stimulation of the sciatic...
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Published in | Sensors and actuators. B, Chemical Vol. 206; pp. 205 - 211 |
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Main Authors | , , , , , |
Format | Journal Article |
Language | English |
Published |
Elsevier B.V
01.01.2015
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Subjects | |
Online Access | Get full text |
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Summary: | •A low impedance and high charge-injection material with an enhanced surface area is proposed.•A layer-by-layer assembly of IrOx/Pt-black with nanoroughness is fabricated.•IrOx/Pt-black has half the impedance and 2.4 times QCDC of a same-sized flat-IrOx.•In vivo electrical stimulation of the sciatic nerve of a mouse is demonstrated using a low voltage IrOx/Pt-black plated microelectrode.
Electrical neural stimulating electrodes play an important role in medical applications and improving health/medical conditions. However, size reduction for low-invasive electrodes creates issues with high electrolyte/electrode interfacial impedance and low charge-injection characteristics, which makes it impossible to stimulate neurons/cells. To overcome these limitations, we propose an electrode material for low-voltage microscale electrode neurostimulation that combines the advantages of low impedance of iridium oxide (IrOx) with the enhanced surface area of platinum black (Pt-black). Based on a simple, rapid, low-temperature electroplating process, herein a low impedance and high charge-injection electrode is fabricated by a layer-by-layer assembly of IrOx/Pt-black with nanoscale roughness. The assembled nanorough-IrOx/Pt-black electrode has an impedance of 32 Ωcm2 at 1kHz and a charge-injection delivery capacity (QCDC) of 46.7mCcm−2, which are 0.5 and 2.4 times the values for the same-sized IrOx/flat-Pt electrode, respectively. The stimulation capability of the nanorough-IrOx/Pt-black plated microelectrode is confirmed by in vivo stimulations of the sciatic nerve of a mouse. The threshold voltages of 8-μm-diameter and 11-μm-diameter electrodes are 700mV and 300mV, respectively. However, increasing the diameter of high QCDC nanorough-IrOx/Pt-black can further reduce the stimulation voltage. Consequently, nanorough-IrOx/Pt-black is applicable to low-voltage microscale electrode neurostimulations for powerful in vivo/in vitro electrophysiological measurements. |
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ISSN: | 0925-4005 1873-3077 |
DOI: | 10.1016/j.snb.2014.09.048 |